Safety screens are a vital component of any liquid combustion, natural gas combustion, and lubrication system in the power generation industry. While filters maintain fluid cleanliness, rogue contamination and debris left in the system during production or generated during operation may still result in sudden failure. Lee safety screen filters increase the reliability of industrial gas turbines and increase efficiency.
The Lee Company offers various standard designs spanning a wide range of sizes, retention methods, materials, filtration ratings, and even technology. The Lee Company is the original inventor of drilled filter screen technology that has provided the industry with a robust, cost-effective, and easily customizable design that withstands burst pressures up to 7500 psid.
Over 50% of safety screens manufactured by The Lee Company are unique products designed to meet the requirements of a specific application. As a result, our capabilities far exceed our standard product line, including, for example, drilled hole sizes between 25 micron and 1500 micron, a wide variety of materials, higher burst and collapse pressure ratings, or unique envelopes optimized for high flow capacity, custom mounting, or integrated bypass mechanisms. For industrial gas turbines, The Lee Company commonly supplies very large safety screens up to 8 inches in length.
Not only has The Lee Company created a market-leading product family of safety screen filters to provide last chance protection, but we’ve also created a simple system for comparing safety screens to one another. Resistance to Blockage (ROB) relates, without complex analysis or elaborate testing, the roles that hole size and the number of holes in a screen serve in overall performance.
Protect your components with a safety screen drilled from a single bar of metal. The Lee Company was the original inventor of this proprietary process, and its products stand the test of time. The resulting screen is extraordinarily robust, eliminates welds and brazes, and can be produced in custom formats for various applications.
HI-BAR® Safety Screens are rated to withstand burst and collapse pressures up to 7500 psid. They’re available in flange mount, threaded, boss mounted, and fitting adapter installation options. Standard flange mount options include stainless steel, titanium, brass, PEEK, and MP35N, and our standard hole size ranges from 50 to 500 microns.
Lastly, our capabilities far exceed our standard product line, including, for example, drilled hole sizes between 25 micron and 1500 micron, a wide variety of materials, higher burst and collapse pressure ratings, or unique envelopes optimized for high flow capacity, custom mounting, or integrated bypass mechanisms.
Lee Etched Screens feature an economical design, incorporating radial or circular convolutions that greatly increase the contamination carrying capacity of the screen. The result is a robust screen design with an optimum amount of protection in a small package. Etched Safety Screens are available in six installation methods and manufactured out of 304L CRES and 17-7PH CRES for increased pressure ratings. These screens are available in hole sizes ranging from 75 to 500 microns.
The Lee Company’s new Boss Mount Strainers are the latest addition to our line of safety screens, offering coarse level filtration in a compact, low profile design. The Boss Mount Strainers are manufactured from 304L stainless steel and feature a robust design with a single-piece screen element that can withstand differential pressures up to 500 psid without rupture. In addition, the corrugated screen design provides a maximum open area for increased dirt holding capacity. Lee strainers are available in thread diameters from 0.750 to 1.875 inches with hole sizes of 965 and 1575 micron.
Lee Series 10 and Series 20 Safety Screens are incredibly robust, considering their fine filtration rating. These screens incorporate a rugged, calendered, and sintered 316L stainless steel wire mesh weave for maximum strength. These screens are manufactured using a proprietary process and feature a design that contains radial convolutions that greatly increase the contamination carrying capacity of the screen. The result is a high-strength screen with an optimum amount of protection in a small package. Available in 10 and 20-micron hole sizes with flange diameters from 0.130 to 0.656 of an inch.
|Standard Installation Configurations
|Flange Mounting is perhaps the most common installation technique as it is simple and economical.
|Boss Mounting involves a threaded installation method that permits easy removal for maintenance. Some form of anti-rotation locking is recommended.
|Insert Retention utilizes the proven Lee Insert Principle. This technique is ideal for simple installation directly into a fluid passageway.
|Boss access is a convenient mounting technique that permits easy removal for cleaning or inspection.
|L-4 installation features three locking fingers that are expanded outward, locking the screen in a fluid passageway. The L-4 technique permits easy removal for inspection or cleaning. This is ideal for creating bidirectional flow.
|Spring-Retained installation is an inexpensive mounting technique suitable for unidirectional flow in applications requiring burst pressures below 500 psid. The spring O.D. is slightly larger than the I.D. of the mounting hole. A special tool is used to twist the spring into the hole.
|TWIS™ installation is designed for low pressure applications and provides unidirectional flow. The screen is readily twisted in or out of the bore for inspection or cleaning.
|HI-BAR® Screens in Adapters are often used as inlet screens to actuators, optimizing space and weight. These adapters are available in AS-straight thread and ring locked styles complete from The Lee Company.
Partner with The Lee Company and get much more than just a supplier of top-quality fluid control products. Our reliable technical support team is available every step of the way to help you find solutions, maximize productivity, and drive efficiency across your operations. Check out these resources specific to the power generation industry.